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CY284108ZXCT

P1-P3P4-P6P7-P9P10-P12P13-P15P16-P16
Clock Generator for Intel
®
Blackford and Bayshore Chipsets
CY284108
........................ Document #: 38-07713 Rev. *B Page 1 of 16
400 West Cesar Chavez, Austin, TX 78701 1+(512) 416-8500 1+(512) 416-9669 www.silabs.com
Features
Compliant with Intel
CK410B
Supports Intel Pentium-4 and Xeon CPUs
Selectable CPU frequencies
Four differential CPU clock pairs
Five 100 MHz Differential SRC clock pairs
Two buffered Reference Clocks @ 14.31818 MHz
One 48 MHz USB clock
Seven 33 MHz PCI clocks
Low-voltage frequency select input
•I
2
C™ support with readback capabilities
Ideal Lexmark Spread Spectrum profile for maximum
electromagnetic interference (EMI) reduction
3.3V power supply
56-pin SSOP and TSSOP packages
CPU SRC PCI REF USB
x 4 x5 x 7 x 2 x 1
Block Diagram Pin Configuration
CY284108
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
1
2
3
4
5
6
7
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
PCIF_0
PCIF_1
PCIF_2
SRCC0
SRCC1
SRCT1
VSS_SRC
SRCT2
SRCC2
SRCC3
SRCT3
VDD_SRC
SRCC4
VDD_SRC
SRCT4
VD D_PCI
VD D_PCI
FSB/TEST_MODE
VSS_REF
FS_A
FSC/TEST_SEL
X1
REF0
REF1
CPUC1
CPUT0
CPUC0
VSSA
VSS_CPU
CPUT2
CPUC2
VDD_CPU
CPUT3
IREF
NC
VTTPWRGD#**/PD
SDATA
SCLK
VDD_REF
CPUC3
VDDA
CPUT1
VDD_CPU
VDD_CPU
SRCT0
VSS_48
VDD_SRC
USB_48
VDD_48
X2
VSS_PCI
PC I_3
PC I_2
PC I_1
PC I_0
VSS_PCI
VDD_REF
XTAL
PLL Ref Freq
XOUT
XIN
OSC
SCLK
PLL1
I
2
C
Logic
VDD_48 MHz
SDATA
VDD_PCI
Divider
Network
VDD_CPU
FS_[C:A]
REF[0:1]
VTT_PWRGD#
IREF
PCI[0:3]
PLL2
CPUT[0:3], CPUC[0:3],
VDD_SRC
SRCT[0:4], SRCC[0:4]
USB_48
CPU_STP#
PCI_STP#
VDD_PCIF
PCIF[0:2]
PD
CY284108
........................Document #: 38-07713 Rev. *B Page 2 of 16
Pin Description
Name Pin Number Type Description
X1 52 I 14.18 MHz crystal input
X2 51 O, SE 14.18 MHz crystal output
REF[1:0] 55, 54 O, SE 14.18 MHz reference clock
PCI[3:0] 6,5,4,3 O, SE 33 MHz clocks
PCIF[2:0] 11,10,9 O,SE 33 MHz free running clock. Is not disabled via Software PCI_STOP.
USB_48 13 O, SE Fixed 48 MHz USB clock output
CPU[T/C][3:0] 37,36;40,39;
43,42;46,45
O, DIF Differential CPU clock outputs
SRC[T/C][4:0] 26,27;24,23;
21,22;19,18;
16,17
O, DIF Differential serial reference clocks. SRC[T/C]4 is recommended for SATA.
FS_A 48 I 3.3V-tolerant input for CPU frequency selection. Refer to DC Electrical
Specifications table for Vil_FS and Vih_FS specifications.
FS_B/TEST_MODE 49 I 3.3V-tolerant inputs for CPU frequency selection/selects REF/N or Hi-Z
when in test mode. Refer to DC Electrical Specifications table for Vil_FS and
Vih_FS specifications.
At VTTPWRGD# asserted low (see page 10 for diagram), this pin is sampled
to determine test mode functionality
0 = Hi-Z
1 = REF/N
FS_C/TEST_SEL 56 I 3.3V-tolerant inputs for CPU frequency selection/selects test mode if pulled
to 3.3V when VTT_PWRGD# is asserted low (seepage 10 for diagram).
Refer to DC Electrical Specifications table for Vil_FS and Vih_FS specifica-
tions
IREF 33 I A precision resistor is attached to this pin, which is connected to the internal
current reference
VTT_PWRGD#/PD 31 I, PD DF3.3V LVTTL input is a level sensitive strobe used to latch the FS_A,
FS_B, FS_C/TEST_SEL inputs. After VTT_PWRGD# (active low) assertion,
this pin becomes a realtime input for asserting power down (active high).
See page 10 for diagram.
SCLK 29 I SMBus-compatible SCLOCK
SDATA 30 I/O SMBus-compatible SDATA
VDD_REF 53 PWR 3.3V power supply for outputs
VSS_REF 50 GND Ground for outputs
VDD_PCI 1,8 PWR 3.3V power supply for outputs
VSS_PCI 2,7 GND Ground for outputs
VDD_48 12 PWR 3.3V power supply for outputs
VSS_48 14 GND Differential CPU clock outputs
VDD_SRC 15,25,28 PWR 3.3V power supply for outputs
VSS_SRC 20 GND Ground for outputs
VDD_CPU 38,44,47 PWR 3.3V power supply for outputs
VSS_CPU 41 GND Ground for outputs
VDD_A 35 PWR 3.3V power supply for outputs
VSS_A 34 GND Ground for outputs
NC 32 No Connection
CY284108
........................Document #: 38-07713 Rev. *B Page 3 of 16
Table 1. CPU Frequency Select Tables
Frequency Select Pins (FS_[C:A])
Host clock frequency selection is achieved by applying the
appropriate logic levels to FS_A, FS_B, FS_C inputs prior to
VTT_PWRGD# assertion (as seen by the clock synthesizer).
Upon VTT_PWRGD# being sampled low by the clock chip
(indicating processor VTT voltage is stable), the clock chip
samples the FS_A, FS_B, and FS_C input values. For all logic
levels of FS_A, FS_B, and FS_C, VTT_PWRGD# employs a
one-shot functionality in that once a valid low on
VTT_PWRGD# has been sampled, all further VTT_PWRGD#,
FS_A, FS_B, and FS_C transitions will be ignored, except in
test mode. FS_C is a three level input, when sampled at a
voltage greater than 2.0V by VTTPWRGD#, the device will
enter test mode as selected by the voltage level on the FS_B
input.
Serial Data Interface
To enhance the flexibility and function of the clock synthesizer,
a two-signal serial interface is provided. Through the Serial
Data Interface, various device functions, such as individual
clock output buffers, can be individually enabled or disabled.
The registers associated with the Serial Data Interface
initialize to their default setting upon power-up, and therefore
use of this interface is optional. Clock device register changes
are normally made upon system initialization, if any are
required. The interface cannot be used during system
operation for power management functions.
Data Protocol
The clock driver serial protocol accepts byte write, byte read,
block write, and block read operations from the controller. For
block write/read operation, the bytes must be accessed in
sequential order from lowest to highest byte (most significant
bit first) with the ability to stop after any complete byte has
been transferred. For byte write and byte read operations, the
system controller can access individually indexed bytes. The
offset of the indexed byte is encoded in the command code,
as described in Table 2.
The block write and block read protocol is outlined in Table 3
while Table 4 outlines the corresponding byte write and byte
read protocol. The slave receiver address is 11010010 (D2h).
Table 2. Command Code Definition
Bit Description
7 0 = Block read or block write operation, 1 = Byte read or byte write operation
(6:0) Byte offset for byte read or byte write operation. For block read or block write operations, these bits should be '0000000'
P1-P3P4-P6P7-P9P10-P12P13-P15P16-P16

CY284108ZXCT

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Buy CY284108ZXCT
Manufacturer:
Silicon Labs
Description:
Clock Generators & Support Products Server, CK410B
Lifecycle:
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